=Paper=
{{Paper
|id=Vol-435/paper-14
|storemode=property
|title=The Generation Challenge Programme Model Driven Architecture: Scientific Domain Model and Ontology
|pdfUrl=https://ceur-ws.org/Vol-435/poster02.pdf
|volume=Vol-435
|authors=Genevieve Mae Aquino,Jeffrey Detras,Rosemary Shrestha,Martin Senger,Kevin Manansala,Elizabeth Arnaud,Reinhard Simon,Jayashree Balaiji,Thomas Hazekamp,Guy Davenport,Graham McLaren,Theo van Hintum,Richard Bruskiewich
|dblpUrl=https://dblp.org/rec/conf/swat4ls/AquinoDSSMASBHD08
}}
==The Generation Challenge Programme Model Driven Architecture: Scientific Domain Model and Ontology==
https://ceur-ws.org/Vol-435/poster02.pdf
The Generation Challenge Programme
Model-Driven Architecture: Scientific Domain
Model and Ontology
Genevieve Mae Aquino1,2 , Jeffrey Detras1 , Rosemary Shrestha2 , Martin
Senger1? , Kevin Manansala1 , Elizabeth Arnaud3 , Reinhard Simon4 , Jayashree
Balaji5 , Thomas Hazekamp6 , Guy Davenport2 , Graham McLaren1 , Theo van
Hintum7 , and Richard Bruskiewich11??
1
Crop Research Informatics Laboratory - International Rice Research Institute
(IRRI), Philippines
2
Crop Research Informatics Laboratory - Centro Internacional de Mejoramiento de
Maz y Trigo (CIMMYT), Mexico
3
Bioversity International, Montpellier, France
4
Centro Internacional de la Papa (CIP), Peru
5
International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), India
6
Bioversity International, Rome, Italy
7
Centre for Genetic Resources, Wageningen Universiteit en Researchcentrum
(WUR), The Netherlands
The Generation Challenge Programme (GCP; http://www.generationcp.
org) is a globally-distributed crop research consortium directed toward crop im-
provement through the application of comparative biology and genetic resources
characterization to plant breeding. To achieve interoperability and integration
within the GCP across diverse data types published by project-distributed data
sources and consumed by end-user data analysis tools, the GCP adopted the de-
velopment paradigm of a “model-driven architecture”. At the core of the GCP ar-
chitecture is a scientific domain model, heavily parameterized with GCP-indexed
ontology. The GCP scientific domain model is an object model that encapsulates
key crop science concepts and is documented using Unified Modeling Language.
The GCP-indexed ontology reuses established international standards where
available, converts other publicly-available controlled vocabulary into formally-
managed ontology, and develops novel ontology if no public vocabularies yet
exist. The GCP architecture is being translated into various open source object-
oriented software libraries and into data types for various public semantic web
protocols. The GCP model-driven architecture is specified as a common semantic
framework for the implementation of interoperability and integration of diverse
crop data sets and analysis tools. The architecture and associated open source
software are accessible at http://pantheon.generationcp.org
Key words: crop informatics, agriculture, ontology, domain model
?
Presenting author.
??
Corresponding author: r.bruskiewich@cgiar.org
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